Nuovi orientamenti di carriera e qualità del lavoro. Un contributo di ricerca

Il presente contributo prende le mosse dalla consapevolezza che i modelli lineari tradizionali sulle carriere (Super, 1980) hanno lasciato il passo a concettualizzazioni più complesse e non lineari (Cohen, Duberley & Mallon, 2004; Pryor & Bright, 2007; Richardson, 2002), argomento tra l’altro approfondito operando una disanima delle principali transizioni di carriera e dei fenomeni psicosociali ad esse correlate (Schlossberg, Waters & Goodman, 1995). Vengono affrontati temi attuali quali quelli della Globalizzazione riflessiva (Beck, 1999), della complessità e delle Flessibilità (Sennett, 1998) e se ne mette in luce le interrelazioni con il fenomeno delle carriere, ed in particolare delle dinamiche che ne hanno modificato progressivamente e radicalmente la natura nel corso degli ultimi trent’anni (Hall, 1976, 1996). È stato approfondito il tema dei nuovi percorsi di carriera, con particolare attenzione ai costrutti teorici della Protean Career (Carriera Versatile) e della Boundaryless Career (Carriera senza confini). Sono stati condotti due studi, mediante il metodo dell’inchiesta, proponendo dei questionari autosomministrabili a due gruppi di lavoratori dipendenti. La selezione degli strumenti da inserire nel protocollo, e quindi delle ipotesi da verificare è stata operata in funzione delle caratteristiche intrinseche dei due gruppi coinvolti, cercando comunque di valorizzare sempre il ruolo dei nuovi orientamenti di carriera all’interno del disegno di ricerca. Lo studio 1 è stato condotto su un gruppo di 540 lavoratori dipendenti provenienti da Sardegna e Sicilia. Facendo riferimento agli studi tradizionali sull’insicurezza lavorativa (Sverke & Hellgren, 2002), si è cercato di valutare l’eventuale effetto moderante dei nuovi orientamenti di carriera (Briscoe, Hall & Frautschy De Muth, 2006) circa gli effetti dell’insicurezza su benessere psicofisico (Goldberg, 1972) e coinvolgimento lavorativo (Schaufeli, Bakker & Salanova, 2006; Scaufeli, Salanova, Gonzalez-Romá & Bakker, 2002). I risultati hanno mostrato alcuni effetti parziali, ma d’altro canto è emerso che i medesimi orientamenti di carriera risultano significativamente e direttamente associati a variabili quali l’Autoefficacia, la Proattività, il benessere e il Coinvolgimento. Lo studio 2, riguardante un gruppo di 79 neolaureati di Palermo e provincia al primo inserimento lavorativo, è stato condotto nell’arco di 8 mesi con tre rilevazioni dati. In questo caso si è cercato di evidenziare eventuali effetti causali longitudinali degli orientamenti di carriera sulle variabili dipendenti già incluse nello studio 2. Le ipotesi espresse hanno trovato soltanto parziale conferma nei risultati.

Statistical analysis and simulation techniques in wall-bounded turbulence

The present work is devoted to the assessment of the energy fluxes physics in the space of scales and physical space of wall-turbulent flows. The generalized Kolmogorov equation will be applied to DNS data of a turbulent channel flow in order to describe the energy fluxes paths from production to dissipation in the augmented space of wall-turbulent flows. This multidimensional description will be shown to be crucial to understand the formation and sustainment of the turbulent fluctuations fed by the energy fluxes coming from the near-wall production region. An unexpected behavior of the energy fluxes comes out from this analysis consisting of spiral-like paths in the combined physical/scale space where the controversial reverse energy cascade plays a central role. The observed behavior conflicts with the classical notion of the Richardson/Kolmogorov energy cascade and may have strong repercussions on both theoretical and modeling approaches to wall-turbulence. To this aim a new relation stating the leading physical processes governing the energy transfer in wall-turbulence is suggested and shown able to capture most of the rich dynamics of the shear dominated region of the flow. Two dynamical processes are identified as driving mechanisms for the fluxes, one in the near wall region and a second one further away from the wall. The former, stronger one is related to the dynamics involved in the near-wall turbulence regeneration cycle. The second suggests an outer self-sustaining mechanism which is asymptotically expected to take place in the log-layer and could explain the debated mixed inner/outer scaling of the near-wall statistics. The same approach is applied for the first time to a filtered velocity field. A generalized Kolmogorov equation specialized for filtered velocity field is derived and discussed. The results will show what effects the subgrid scales have on the resolved motion in both physical and scale space, singling out the prominent role of the filter length compared to the cross-over scale between production dominated scales and inertial range, lc, and the reverse energy cascade region lb. The systematic characterization of the resolved and subgrid physics as function of the filter scale and of the wall-distance will be shown instrumental for a correct use of LES models in the simulation of wall turbulent flows. Taking inspiration from the new relation for the energy transfer in wall turbulence, a new class of LES models will be also proposed. Finally, the generalized Kolmogorov equation specialized for filtered velocity fields will be shown to be an helpful statistical tool for the assessment of LES models and for the development of new ones. As example, some classical purely dissipative eddy viscosity models are analyzed via an a priori procedure.

Detection and Modeling of Boundary Layer Height

This thesis tackles the problem of the automated detection of the atmospheric boundary layer (BL) height, h, from aerosol lidar/ceilometer observations. A new method, the Bayesian Selective Method (BSM), is presented. It implements a Bayesian statistical inference procedure which combines in an statistically optimal way different sources of information. Firstly atmospheric stratification boundaries are located from discontinuities in the ceilometer back-scattered signal. The BSM then identifies the discontinuity edge that has the highest probability to effectively mark the BL height. Information from the contemporaneus physical boundary layer model simulations and a climatological dataset of BL height evolution are combined in the assimilation framework to assist this choice. The BSM algorithm has been tested for four months of continuous ceilometer measurements collected during the BASE:ALFA project and is shown to realistically diagnose the BL depth evolution in many different weather conditions. Then the BASE:ALFA dataset is used to investigate the boundary layer structure in stable conditions. Functions from the Obukhov similarity theory are used as regression curves to fit observed velocity and temperature profiles in the lower half of the stable boundary layer. Surface fluxes of heat and momentum are best-fitting parameters in this exercise and are compared with what measured by a sonic anemometer. The comparison shows remarkable discrepancies, more evident in cases for which the bulk Richardson number turns out to be quite large. This analysis supports earlier results, that surface turbulent fluxes are not the appropriate scaling parameters for profiles of mean quantities in very stable conditions. One of the practical consequences is that boundary layer height diagnostic formulations which mainly rely on surface fluxes are in disagreement to what obtained by inspecting co-located radiosounding profiles.